#!/usr/bin/env pytest
# -*- coding: utf-8 -*-
###############################################################################
#
# Project:  GDAL/OGR Test Suite
# Purpose:  Test functionality for OGR JSONFG driver.
# Author:   Even Rouault <even dot rouault at spatialys.com>
#
###############################################################################
# Copyright (c) 2023, Even Rouault <even dot rouault at spatialys.com>
#
# SPDX-License-Identifier: MIT
###############################################################################

import json

import gdaltest
import pytest

from osgeo import gdal, ogr, osr

pytestmark = pytest.mark.require_driver("JSONFG")


###############################################################################
# Test parsing valid formats of coordRefSys


def _get_epsg_crs(code, epoch=None):
    srs = osr.SpatialReference()
    srs.ImportFromEPSG(code)
    srs.SetAxisMappingStrategy(osr.OAMS_TRADITIONAL_GIS_ORDER)
    if epoch:
        srs.SetCoordinateEpoch(epoch)
    return srs


def _get_compound_crs(horiz_code, vert_code, epoch=None):
    horiz_srs = osr.SpatialReference()
    horiz_srs.ImportFromEPSG(horiz_code)
    vert_srs = osr.SpatialReference()
    vert_srs.ImportFromEPSG(vert_code)
    srs = osr.SpatialReference()
    srs.SetCompoundCS(
        horiz_srs.GetName() + " + " + vert_srs.GetName(), horiz_srs, vert_srs
    )
    srs.SetAxisMappingStrategy(osr.OAMS_TRADITIONAL_GIS_ORDER)
    if epoch:
        srs.SetCoordinateEpoch(epoch)
    return srs


@pytest.mark.parametrize(
    "coordRefSys,expected_crs",
    [
        ("[EPSG:32631]", _get_epsg_crs(32631)),
        ("http://www.opengis.net/def/crs/EPSG/0/32631", _get_epsg_crs(32631)),
        ({"type": "Reference", "href": "[EPSG:32631]"}, _get_epsg_crs(32631)),
        (
            {
                "type": "Reference",
                "href": "http://www.opengis.net/def/crs/EPSG/0/32631",
            },
            _get_epsg_crs(32631),
        ),
        (
            {"type": "Reference", "href": "[EPSG:4326]", "epoch": 2023.4},
            _get_epsg_crs(4326, epoch=2023.4),
        ),
        (
            {
                "type": "Reference",
                "href": "http://www.opengis.net/def/crs/EPSG/0/4326",
                "epoch": 2023.4,
            },
            _get_epsg_crs(4326, epoch=2023.4),
        ),
        # Compound CRS
        (["[EPSG:4258]", "[EPSG:7837]"], _get_compound_crs(4258, 7837)),
        (
            ["http://www.opengis.net/def/crs/EPSG/0/4258", "[EPSG:7837]"],
            _get_compound_crs(4258, 7837),
        ),
        (
            ["[EPSG:4258]", "http://www.opengis.net/def/crs/EPSG/0/7837"],
            _get_compound_crs(4258, 7837),
        ),
        (
            [
                "http://www.opengis.net/def/crs/EPSG/0/4258",
                "http://www.opengis.net/def/crs/EPSG/0/7837",
            ],
            _get_compound_crs(4258, 7837),
        ),
        (
            [
                {"type": "Reference", "href": "[EPSG:4258]", "epoch": 2023.4},
                "http://www.opengis.net/def/crs/EPSG/0/7837",
            ],
            _get_compound_crs(4258, 7837, epoch=2023.4),
        ),
    ],
)
def test_jsonfg_read_coordRefSys_valid(coordRefSys, expected_crs):

    j = {
        "type": "FeatureCollection",
        "conformsTo": ["[ogc-json-fg-1-0.1:core]"],
        "coordRefSys": coordRefSys,
        "features": [{"type": "Feature", "properties": {}, "geometry": None}],
    }

    ds = gdal.OpenEx(json.dumps(j))
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayer(0)
    srs = lyr.GetSpatialRef()
    assert srs
    assert srs.IsSame(expected_crs)


###############################################################################
# Test parsing invalid formats of coordRefSys


@pytest.mark.parametrize(
    "coordRefSys",
    [
        None,
        12,
        "",
        "[",
        "[]",
        "[EPSG]",
        "[EPSG:]",
        "[EPSG:0]",
        "http://www.opengis.net/def/crs/EPSG/0/0",
        {},
        {"type": None},
        {"type": 12},
        {"type": "invalid"},
        {"type": "Reference"},
        {"type": "Reference", "href": None},
        {"type": "Reference", "href": 12},
        {"type": "Reference", "href": "[EPSG:]"},
        {"type": "Reference", "href": "[EPSG:4326]", "epoch": "invalid"},
        [],
        ["[EPSG:4326]"],
        ["[EPSG:4326]", "invalid"],
        ["invalid", "[EPSG:4326]"],
    ],
)
def test_jsonfg_read_coordRefSys_invalid(coordRefSys):

    j = {
        "type": "FeatureCollection",
        "conformsTo": ["[ogc-json-fg-1-0.1:core]"],
        "coordRefSys": coordRefSys,
        "features": [{"type": "Feature", "properties": {}, "geometry": None}],
    }

    gdal.ErrorReset()
    ds = gdal.OpenEx(json.dumps(j))
    assert gdal.GetLastErrorMsg() != ""
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayer(0)
    assert lyr.GetDataset().GetDescription() == ds.GetDescription()
    srs = lyr.GetSpatialRef()
    assert srs is None


###############################################################################
# Test handling of geometry vs place vs coordRefSys


@pytest.mark.parametrize(
    "filename,epsg_code_lyr,mapping_lyr,x,y,epsg_code_feat,mapping_feat",
    [
        (
            "data/jsonfg/crs_32631_fc_only.json",
            32631,
            [1, 2],
            500000,
            4500000,
            None,
            None,
        ),
        (
            "data/jsonfg/crs_32631_feat.json",
            32631,
            [1, 2],
            500000,
            4500000,
            None,
            None,
        ),
        (
            "data/jsonfg/crs_32631_fc_and_feat.json",
            32631,
            [1, 2],
            500000,
            4500000,
            None,
            None,
        ),
        (
            "data/jsonfg/crs_32631_fc_place_null.json",
            32631,
            [1, 2],
            500000,
            0,
            None,
            None,
        ),
        (
            "data/jsonfg/crs_32631_fc_geometry_null.json",
            32631,
            [1, 2],
            500000,
            4500000,
            None,
            None,
        ),
        (
            "data/jsonfg/crs_32631_fc_4326_feat.json",
            4326,
            [2, 1],
            3,
            0,
            None,
            None,
        ),
        (
            "data/jsonfg/crs_32631_feat_only.json",
            32631,
            [1, 2],
            500000,
            4500000,
            None,
            None,
        ),
        (
            "data/jsonfg/crs_32631_geom_only.json",
            32631,
            [1, 2],
            500000,
            4500000,
            None,
            None,
        ),
        (
            "data/jsonfg/crs_32631_fc_mixed_feat.json",
            32631,
            [1, 2],
            [500000, 0],
            [0, 0],
            None,
            None,
        ),
        (
            "data/jsonfg/crs_none_fc_mixed_feat.json",
            None,
            None,
            [3, 0],
            [0, 10000000],
            [4326, 32731],
            [[2, 1], [1, 2]],
        ),
        ("data/jsonfg/crs_4326_fc_only.json", 4326, [2, 1], 2, 49, None, None),
        ("data/jsonfg/crs_4326_fc_and_feat.json", 4326, [2, 1], 2, 49, None, None),
        ("data/jsonfg/crs_4326_fc_place_null.json", 4326, [2, 1], 2, 49, None, None),
        (
            "data/jsonfg/crs_4326_fc_32631_feat.json",
            32631,
            [1, 2],
            500000,
            0,
            None,
            None,
        ),
        ("data/jsonfg/crs_4326_feat_only.json", 4326, [2, 1], 2, 49, None, None),
        ("data/jsonfg/crs_none.json", 4326, [2, 1], 2, 49, None, None),
        (
            "data/jsonfg/crs_none_fc_mixed_feat_no_conformsTo.json",
            4326,
            [2, 1],
            2,
            49,
            None,
            None,
        ),
    ],
)
def test_jsonfg_read_crs(
    filename, epsg_code_lyr, mapping_lyr, x, y, epsg_code_feat, mapping_feat
):
    ds = gdal.OpenEx(filename)
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayer(0)
    assert lyr.GetDataset().GetDescription() == ds.GetDescription()
    lyr_srs = lyr.GetSpatialRef()
    if epsg_code_lyr:
        assert lyr_srs
        assert lyr_srs.GetAuthorityCode(None) == str(epsg_code_lyr)
        assert lyr_srs.GetDataAxisToSRSAxisMapping() == mapping_lyr
    else:
        assert lyr_srs is None
    if isinstance(x, list):
        for i in range(len(x)):
            f = lyr.GetNextFeature()
            geom = f.GetGeometryRef()
            assert geom.GetX(0) == pytest.approx(x[i], abs=1e-8)
            assert geom.GetY(0) == pytest.approx(y[i], abs=1e-8)
            geom_srs = geom.GetSpatialReference()
            if epsg_code_lyr is not None and epsg_code_feat is None:
                assert geom_srs
                assert geom_srs.IsSame(lyr_srs)
            elif epsg_code_lyr is None and epsg_code_feat is not None:
                assert geom_srs.GetAuthorityCode(None) == str(epsg_code_feat[i])
                assert geom_srs.GetDataAxisToSRSAxisMapping() == mapping_feat[i]

    else:
        f = lyr.GetNextFeature()
        geom = f.GetGeometryRef()
        assert geom.GetX(0) == pytest.approx(x, abs=1e-8)
        assert geom.GetY(0) == pytest.approx(y, abs=1e-8)
        geom_srs = geom.GetSpatialReference()
        if epsg_code_lyr is not None and epsg_code_feat is None:
            assert geom_srs
            assert geom_srs.IsSame(lyr_srs)
        elif epsg_code_feat is not None:
            assert geom_srs
            assert geom_srs.GetAuthorityCode(None) == str(epsg_code_feat)
            assert geom_srs.GetDataAxisToSRSAxisMapping() == mapping_feat


###############################################################################
@pytest.mark.parametrize(
    "filename,open_options,epsg_code_lyr,mapping_lyr,x,y",
    [
        ("data/jsonfg/crs_32631_fc_only.json", [], 32631, [1, 2], 500000, 4500000),
        (
            "data/jsonfg/crs_32631_fc_only.json",
            ["GEOMETRY_ELEMENT=AUTO"],
            32631,
            [1, 2],
            500000,
            4500000,
        ),
        (
            "data/jsonfg/crs_32631_fc_only.json",
            ["GEOMETRY_ELEMENT=PLACE"],
            32631,
            [1, 2],
            500000,
            4500000,
        ),
        (
            "data/jsonfg/crs_32631_fc_only.json",
            ["GEOMETRY_ELEMENT=GEOMETRY"],
            4326,
            [2, 1],
            0,
            0,
        ),
        (
            "data/jsonfg/crs_32631_fc_place_null.json",
            ["GEOMETRY_ELEMENT=PLACE"],
            32631,
            [1, 2],
            None,
            None,
        ),
        (
            "data/jsonfg/crs_32631_fc_place_null.json",
            ["GEOMETRY_ELEMENT=GEOMETRY"],
            4326,
            [2, 1],
            3,
            0,
        ),
        (
            "data/jsonfg/crs_32631_fc_geometry_null.json",
            ["GEOMETRY_ELEMENT=PLACE"],
            32631,
            [1, 2],
            500000,
            4500000,
        ),
        (
            "data/jsonfg/crs_32631_fc_geometry_null.json",
            ["GEOMETRY_ELEMENT=GEOMETRY"],
            4326,
            [2, 1],
            None,
            None,
        ),
    ],
)
def test_jsonfg_read_GEOMETRY_ELEMENT_open_option(
    filename, open_options, epsg_code_lyr, mapping_lyr, x, y
):
    ds = gdal.OpenEx(filename, open_options=open_options)
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayer(0)
    lyr_srs = lyr.GetSpatialRef()
    assert lyr_srs
    assert lyr_srs.GetAuthorityCode(None) == str(epsg_code_lyr)
    assert lyr_srs.GetDataAxisToSRSAxisMapping() == mapping_lyr
    f = lyr.GetNextFeature()
    geom = f.GetGeometryRef()
    if x is not None:
        assert geom.GetX(0) == pytest.approx(x, abs=1e-8)
        assert geom.GetY(0) == pytest.approx(y, abs=1e-8)
    else:
        assert geom is None


###############################################################################
# Test reading file with featureType at FeatureCollection level


def test_jsonfg_read_feature_type_top_level():

    ds = gdal.OpenEx("data/jsonfg/feature_type_top_level.json")
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayerByName("type1")
    assert lyr


###############################################################################
# Test reading file with several feature types


def test_jsonfg_read_two_features_types():

    ds = gdal.OpenEx("data/jsonfg/two_feature_types.json")
    assert ds.GetDriver().GetDescription() == "JSONFG"
    assert ds.GetLayerCount() == 2
    lyr = ds.GetLayerByName("type1")
    assert lyr.GetFeatureCount() == 2
    assert lyr.GetGeomType() == ogr.wkbPoint
    assert lyr.GetLayerDefn().GetFieldCount() == 1
    f = lyr.GetNextFeature()
    assert f.GetField("foo") == "1"
    assert f.GetFID() == 1
    f = lyr.GetNextFeature()
    assert f.GetField("foo") == "bar"
    assert f.GetFID() == 2

    lyr = ds.GetLayerByName("type2")
    assert lyr.GetFeatureCount() == 1
    assert lyr.GetGeomType() == ogr.wkbLineString25D
    assert lyr.GetLayerDefn().GetFieldCount() == 1
    f = lyr.GetNextFeature()
    assert f.GetField("bar") == "baz"
    assert f.GetFID() == 1


###############################################################################
# Test reading file with a single Feature larger than 6000 bytes


def test_jsonfg_read_single_feature_large(tmp_vsimem):

    tmp_file = str(tmp_vsimem / "test.json")
    content = """{
      "type": "Feature",
      "conformsTo" : [ "[ogc-json-fg-1-0.1:core]" ],
      %s
      "id": 1,
      "geometry": { "type": "Point", "coordinates": [2, 49] },
      "properties": { "foo": 1 },
      "place": null,
      "time": null
    }""" % (
        " " * 100000
    )

    gdal.FileFromMemBuffer(tmp_file, content)

    ds = gdal.OpenEx(tmp_file)
    assert ds.GetDriver().GetDescription() == "JSONFG"


###############################################################################
# Test time handling


@pytest.mark.parametrize(
    "time_values,expected_fields,expected_values_array",
    [
        ([None], [], []),
        ([{"date": "2023-06-05"}], [("time", ogr.OFTDate)], [{"time": "2023/06/05"}]),
        (
            [{"timestamp": "2023-06-05T12:34:56Z"}],
            [("time", ogr.OFTDateTime)],
            [{"time": "2023/06/05 12:34:56+00"}],
        ),
        # Interval of Date
        (
            [{"interval": ["2023-06-05", "2023-06-06"]}],
            [("time_start", ogr.OFTDate), ("time_end", ogr.OFTDate)],
            [{"time_start": "2023/06/05", "time_end": "2023/06/06"}],
        ),
        (
            [{"interval": ["2023-06-05", ".."]}],
            [("time_start", ogr.OFTDate), ("time_end", ogr.OFTDate)],
            [{"time_start": "2023/06/05", "time_end": None}],
        ),
        (
            [{"interval": ["..", "2023-06-06"]}],
            [("time_start", ogr.OFTDate), ("time_end", ogr.OFTDate)],
            [{"time_start": None, "time_end": "2023/06/06"}],
        ),
        # Interval of DateTime
        (
            [{"interval": ["2023-06-05T12:34:56Z", "2023-06-06T12:34:56Z"]}],
            [("time_start", ogr.OFTDateTime), ("time_end", ogr.OFTDateTime)],
            [
                {
                    "time_start": "2023/06/05 12:34:56+00",
                    "time_end": "2023/06/06 12:34:56+00",
                }
            ],
        ),
        (
            [{"interval": ["2023-06-05T12:34:56Z", ".."]}],
            [("time_start", ogr.OFTDateTime), ("time_end", ogr.OFTDateTime)],
            [{"time_start": "2023/06/05 12:34:56+00", "time_end": None}],
        ),
        (
            [{"interval": ["..", "2023-06-06T12:34:56Z"]}],
            [("time_start", ogr.OFTDateTime), ("time_end", ogr.OFTDateTime)],
            [{"time_start": None, "time_end": "2023/06/06 12:34:56+00"}],
        ),
        # Mix of Date and DateTime
        (
            [{"date": "2023-06-05"}, {"timestamp": "2023-06-05T12:34:56Z"}],
            [("time", ogr.OFTDateTime)],
            [{"time": "2023/06/05 00:00:00"}, {"time": "2023/06/05 12:34:56+00"}],
        ),
        (
            [
                {"interval": ["2023-06-05", "2023-06-06"]},
                {"interval": ["2023-06-05T12:34:56Z", "2023-06-06T12:34:56Z"]},
            ],
            [("time_start", ogr.OFTDateTime), ("time_end", ogr.OFTDateTime)],
            [
                {
                    "time_start": "2023/06/05 00:00:00",
                    "time_end": "2023/06/06 00:00:00",
                },
                {
                    "time_start": "2023/06/05 12:34:56+00",
                    "time_end": "2023/06/06 12:34:56+00",
                },
            ],
        ),
    ],
)
def test_jsonfg_read_time(time_values, expected_fields, expected_values_array):

    j = {
        "type": "FeatureCollection",
        "conformsTo": ["[ogc-json-fg-1-0.1:core]"],
        "features": [],
    }
    for time in time_values:
        j["features"].append(
            {"type": "Feature", "properties": {}, "geometry": None, "time": time}
        )

    ds = gdal.OpenEx(json.dumps(j))
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayer(0)
    lyr_defn = lyr.GetLayerDefn()
    for (field_name, field_type) in expected_fields:
        idx = lyr_defn.GetFieldIndex(field_name)
        assert idx >= 0, field_name
        assert lyr_defn.GetFieldDefn(idx).GetType() == field_type
    for expected_values in expected_values_array:
        feat = lyr.GetNextFeature()
        for key in expected_values:
            if expected_values[key]:
                assert feat.GetFieldAsString(key) == expected_values[key]
            else:
                assert not feat.IsFieldSet(key)


###############################################################################
# Test time handling


def test_jsonfg_read_time_with_time_property():

    j = {
        "type": "FeatureCollection",
        "conformsTo": ["[ogc-json-fg-1-0.1:core]"],
        "features": [
            {
                "type": "Feature",
                "properties": {"time": "my_time"},
                "geometry": None,
                "time": {"date": "2023-06-05"},
            }
        ],
    }

    ds = gdal.OpenEx(json.dumps(j))
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayer(0)
    f = lyr.GetNextFeature()
    assert f["time"] == "my_time"
    assert f.GetFieldAsString("jsonfg_time") == "2023/06/05"


###############################################################################
# Test reading Prism with point base


def test_jsonfg_read_prism_with_point_base():

    ds = gdal.OpenEx("data/jsonfg/pylon.json")
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayer(0)
    f = lyr.GetNextFeature()
    assert (
        f.GetGeometryRef().ExportToIsoWkt()
        == "LINESTRING Z (81220.15 455113.71 2.02,81220.15 455113.71 8.02)"
    )


###############################################################################
# Test reading Prism with line string base


def test_jsonfg_read_prism_with_line_base():

    ds = gdal.OpenEx("data/jsonfg/fence.json")
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayer(0)
    f = lyr.GetNextFeature()
    assert (
        f.GetGeometryRef().ExportToIsoWkt()
        == "MULTIPOLYGON Z (((81220.15 455113.71 2.02,81223.15 455116.71 2.02,81223.15 455116.71 3.22,81220.15 455113.71 3.22,81220.15 455113.71 2.02)))"
    )


###############################################################################
# Test reading Prism with polygon base


def test_jsonfg_read_prism_with_polygon_base():

    ds = gdal.OpenEx("data/jsonfg/prism_with_polygon_base.json")
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayer(0)
    f = lyr.GetNextFeature()
    assert (
        f.GetGeometryRef().ExportToIsoWkt()
        == "POLYHEDRALSURFACE Z (((0 0 10,1 0 10,0 2 10,0 0 10)),((0 0 10,1 0 10,1 0 20,0 0 20,0 0 10)),((1 0 10,0 2 10,0 2 20,1 0 20,1 0 10)),((0 2 10,0 0 10,0 0 20,0 2 20,0 2 10)),((0 0 20,1 0 20,0 2 20,0 0 20)))"
    )


###############################################################################
# Test writing coordRefSys, geometry, place


@pytest.mark.parametrize(
    "crs,expected_coordRefSys,check_crs_equivalence,input_x,input_y,geom_x,geom_y,place_x,place_y",
    [
        (
            _get_epsg_crs(32631),
            "http://www.opengis.net/def/crs/EPSG/0/32631",
            True,
            500000,
            0,
            3,
            0,
            500000,
            0,
        ),
        (
            _get_epsg_crs(4326),
            "http://www.opengis.net/def/crs/EPSG/0/4326",
            True,
            2,
            49,
            2,
            49,
            None,
            None,
        ),
        (
            _get_epsg_crs(4258),
            "http://www.opengis.net/def/crs/EPSG/0/4258",
            True,
            2,
            49,
            2,
            49,
            49,
            2,
        ),
        (
            _get_epsg_crs(4326, epoch=2023.4),
            {
                "type": "Reference",
                "href": "http://www.opengis.net/def/crs/EPSG/0/4326",
                "epoch": 2023.4,
            },
            True,
            2,
            49,
            2,
            49,
            None,
            None,
        ),
        # Compound CRS
        (
            _get_compound_crs(4258, 5703),
            [
                "http://www.opengis.net/def/crs/EPSG/0/4258",
                "http://www.opengis.net/def/crs/EPSG/0/5703",
            ],
            True,
            2,
            49,
            2,
            49,
            49,
            2,
        ),
        (
            _get_compound_crs(4258, 5703, epoch=2023.4),
            [
                {
                    "type": "Reference",
                    "href": "http://www.opengis.net/def/crs/EPSG/0/4258",
                    "epoch": 2023.4,
                },
                "http://www.opengis.net/def/crs/EPSG/0/5703",
            ],
            True,
            2,
            49,
            2,
            49,
            49,
            2,
        ),
        (
            osr.SpatialReference(
                'GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],UNIT["degree",0.0174532925199433,AUTHORITY["EPSG","9122"]],AXIS["Latitude",NORTH],AXIS["Longitude",EAST]]'
            ),
            "http://www.opengis.net/def/crs/EPSG/0/4326",
            False,
            2,
            49,
            2,
            49,
            None,
            None,
        ),
        (
            osr.SpatialReference("+proj=merc +datum=NAD83"),
            {"type": "PROJJSON", "value": {}},
            True,
            0,
            0,
            0,
            0,
            0,
            0,
        ),
    ],
)
def test_jsonfg_write_coordRefSys_geometry_place(
    crs,
    expected_coordRefSys,
    check_crs_equivalence,
    input_x,
    input_y,
    geom_x,
    geom_y,
    place_x,
    place_y,
):

    filename = "/vsimem/test_jsonfg_write_coordRefSys_geometry_place.json"
    try:
        ds = ogr.GetDriverByName("JSONFG").CreateDataSource(
            filename, options=["SINGLE_LAYER=YES"]
        )
        lyr = ds.CreateLayer("test", srs=crs, geom_type=ogr.wkbUnknown)
        assert lyr.GetDataset().GetDescription() == ds.GetDescription()
        f = ogr.Feature(lyr.GetLayerDefn())
        g = ogr.Geometry(ogr.wkbPoint)
        g.AddPoint_2D(input_x, input_y)
        f.SetGeometry(g)
        lyr.CreateFeature(f)
        f = None
        ds = None

        f = gdal.VSIFOpenL(filename, "rb")
        if f:
            data = gdal.VSIFReadL(1, 10000, f)
            gdal.VSIFCloseL(f)

        j = json.loads(data)
        if isinstance(expected_coordRefSys, dict):
            for x in expected_coordRefSys:
                assert x in j["coordRefSys"]
                if x == "type":
                    assert j["coordRefSys"][x] == expected_coordRefSys[x]
        else:
            assert j["coordRefSys"] == expected_coordRefSys
        feat = j["features"][0]
        if geom_x is not None:
            assert feat["geometry"]["coordinates"][0] == pytest.approx(geom_x)
            assert feat["geometry"]["coordinates"][1] == pytest.approx(geom_y)
        else:
            assert feat["geometry"] is None
        if place_x is not None:
            assert feat["place"]["coordinates"][0] == pytest.approx(place_x)
            assert feat["place"]["coordinates"][1] == pytest.approx(place_y)
        else:
            assert feat["place"] is None

        ds = ogr.Open(filename)
        lyr = ds.GetLayer(0)
        if check_crs_equivalence:
            assert lyr.GetSpatialRef().IsSame(crs)
        ds = None

    finally:
        if gdal.VSIStatL(filename):
            gdal.Unlink(filename)


###############################################################################
# Test IAU: CRS


@pytest.mark.require_proj(9, 1)
def test_jsonfg_write_coordRefSys_IAU():
    srs = osr.SpatialReference()
    srs.SetFromUserInput("IAU:49910")
    srs.SetAxisMappingStrategy(osr.OAMS_TRADITIONAL_GIS_ORDER)
    test_jsonfg_write_coordRefSys_geometry_place(
        srs,
        "http://www.opengis.net/def/crs/IAU/2015/49910",
        True,
        2,
        49,
        None,
        None,
        2,
        49,
    )


###############################################################################


def test_jsonfg_write_basic():

    filename = "/vsimem/test_jsonfg_write_basic.json"
    try:
        ds = ogr.GetDriverByName("JSONFG").CreateDataSource(filename)
        srs = osr.SpatialReference()
        srs.ImportFromEPSG(32631)
        lyr = ds.CreateLayer("test", srs=srs, geom_type=ogr.wkbUnknown)
        lyr.CreateField(ogr.FieldDefn("strfield", ogr.OFTString))
        lyr.CreateField(ogr.FieldDefn("intfield", ogr.OFTInteger))
        lyr.CreateField(ogr.FieldDefn("int64field", ogr.OFTInteger64))
        lyr.CreateField(ogr.FieldDefn("doublefield", ogr.OFTReal))
        lyr.CreateField(ogr.FieldDefn("strlistfield", ogr.OFTStringList))
        lyr.CreateField(ogr.FieldDefn("intlistfield", ogr.OFTIntegerList))
        lyr.CreateField(ogr.FieldDefn("int64listfield", ogr.OFTInteger64List))
        lyr.CreateField(ogr.FieldDefn("doublelistfield", ogr.OFTRealList))
        boolfield = ogr.FieldDefn("boolfield", ogr.OFTInteger)
        boolfield.SetSubType(ogr.OFSTBoolean)
        lyr.CreateField(boolfield)
        jsonfield = ogr.FieldDefn("jsonfield", ogr.OFTString)
        jsonfield.SetSubType(ogr.OFSTJSON)
        lyr.CreateField(jsonfield)
        f = ogr.Feature(lyr.GetLayerDefn())
        f.SetFID(10)
        f["strfield"] = "foo"
        f["intfield"] = 123456789
        f["int64field"] = 12345678912345678
        f["doublefield"] = 1.5
        f["strlistfield"] = ["foo", "bar"]
        f["intlistfield"] = [123456789]
        f["int64listfield"] = [12345678912345678]
        f["doublelistfield"] = [1.5]
        f["boolfield"] = True
        f["jsonfield"] = json.dumps({"a": [1, 2]})
        f.SetGeometry(
            ogr.CreateGeometryFromWkt("POINT(1.23456789 2.23456789 3.23456789)")
        )
        lyr.CreateFeature(f)
        f = None
        ds = None

        f = gdal.VSIFOpenL(filename, "rb")
        if f:
            data = gdal.VSIFReadL(1, 10000, f)
            gdal.VSIFCloseL(f)

        j = json.loads(data)
        assert j["features"][0]["id"] == 10
        assert j["features"][0]["properties"] == {
            "strfield": "foo",
            "intfield": 123456789,
            "int64field": 12345678912345678,
            "doublefield": 1.5,
            "strlistfield": ["foo", "bar"],
            "intlistfield": [123456789],
            "int64listfield": [12345678912345678],
            "doublelistfield": [1.5],
            "boolfield": True,
            "jsonfield": {"a": [1, 2]},
        }
        assert "xy_coordinate_resolution" not in j
        assert "z_coordinate_resolution" not in j
        assert "xy_coordinate_resolution_place" not in j
        assert "z_coordinate_resolution_place" not in j
        assert j["features"][0]["geometry"]["coordinates"][2] == 3.235

        ds = ogr.Open(filename)
        lyr = ds.GetLayer(0)
        f = lyr.GetNextFeature()
        assert f["strfield"] == "foo"
        assert f["intfield"] == 123456789
        assert f["int64field"] == 12345678912345678
        assert f["doublefield"] == 1.5
        assert f["strlistfield"] == ["foo", "bar"]
        assert f["intlistfield"] == [123456789]
        assert f["int64listfield"] == [12345678912345678]
        assert f["doublelistfield"] == [1.5]
        assert f["boolfield"] == True
        assert json.loads(f["jsonfield"]) == {"a": [1, 2]}
        assert (
            f.GetGeometryRef().ExportToIsoWkt()
            == "POINT Z (1.23456789 2.23456789 3.23456789)"
        )
        ds = None

    finally:
        if gdal.VSIStatL(filename):
            gdal.Unlink(filename)


###############################################################################


def test_jsonfg_write_several_layers():

    filename = "/vsimem/test_jsonfg_write_several_layers.json"
    try:
        ds = ogr.GetDriverByName("JSONFG").CreateDataSource(filename)
        srs1 = osr.SpatialReference()
        srs1.ImportFromEPSG(32631)
        lyr = ds.CreateLayer("test1", srs=srs1, geom_type=ogr.wkbUnknown)
        f = ogr.Feature(lyr.GetLayerDefn())
        g = ogr.Geometry(ogr.wkbPoint)
        g.AddPoint_2D(1, 2)
        f.SetGeometry(g)
        lyr.CreateFeature(f)
        f = None
        srs2 = osr.SpatialReference()
        srs2.ImportFromEPSG(32632)
        lyr = ds.CreateLayer("test2", srs=srs2, geom_type=ogr.wkbUnknown)
        f = ogr.Feature(lyr.GetLayerDefn())
        g = ogr.Geometry(ogr.wkbPoint)
        g.AddPoint_2D(3, 4)
        f.SetGeometry(g)
        lyr.CreateFeature(f)
        f = None
        ds = None

        f = gdal.VSIFOpenL(filename, "rb")
        if f:
            data = gdal.VSIFReadL(1, 10000, f)
            gdal.VSIFCloseL(f)

        j = json.loads(data)
        assert "coordRefSys" not in j

        ds = ogr.Open(filename)
        assert ds.GetLayerCount() == 2
        lyr = ds.GetLayerByName("test1")
        assert lyr.GetSpatialRef().IsSame(srs1)
        lyr = ds.GetLayerByName("test2")
        assert lyr.GetSpatialRef().IsSame(srs2)
        ds = None

    finally:
        if gdal.VSIStatL(filename):
            gdal.Unlink(filename)


###############################################################################


@pytest.mark.parametrize(
    "wkts,expect_geom_type",
    [
        [["POINT (1 2)"], ogr.wkbPoint],
        [["POINT Z (1 2 3)"], ogr.wkbPoint25D],
        [["LINESTRING (1 2,3 4)"], ogr.wkbLineString],
        [["LINESTRING Z (1 2 3,4 5 6)"], ogr.wkbLineString25D],
        [["POLYGON ((0 0,0 1,1 1,0 0))"], ogr.wkbPolygon],
        [["POLYGON Z ((0 0 10,0 1 10,1 1 10,0 0 10))"], ogr.wkbPolygon25D],
        [["MULTIPOINT ((1 2))"], ogr.wkbMultiPoint],
        [["MULTIPOINT Z ((1 2 3))"], ogr.wkbMultiPoint25D],
        [["MULTILINESTRING ((1 2,3 4))"], ogr.wkbMultiLineString],
        [["MULTILINESTRING Z ((1 2 3,4 5 6))"], ogr.wkbMultiLineString25D],
        [["MULTIPOLYGON (((0 0,0 1,1 1,0 0)))"], ogr.wkbMultiPolygon],
        [["MULTIPOLYGON Z (((0 0 10,0 1 10,1 1 10,0 0 10)))"], ogr.wkbMultiPolygon25D],
        [["GEOMETRYCOLLECTION (POINT (1 2))"], ogr.wkbGeometryCollection],
        [["GEOMETRYCOLLECTION Z (POINT Z (1 2 3))"], ogr.wkbGeometryCollection25D],
        [["POINT (1 2)", "LINESTRING (1 2,3 4)"], ogr.wkbUnknown],
        [["POLYHEDRALSURFACE Z EMPTY"], ogr.wkbPolyhedralSurfaceZ],
        [
            [
                "POLYHEDRALSURFACE Z (((0 0 0,0 1 0,1 1 0,0 0 0)),((0 0 0,1 0 0,0 0 1,0 0 0)),((0 0 0,0 1 0,0 0 1,0 0 0)),((0 1 0,1 0 0,0 0 1,0 1 0)))"
            ],
            ogr.wkbPolyhedralSurfaceZ,
        ],
    ],
)
def test_jsonfg_write_all_geom_types(tmp_path, wkts, expect_geom_type):

    filename = tmp_path / "test_jsonfg_read_write_all_geom_types.json"

    ds = ogr.GetDriverByName("JSONFG").CreateDataSource(filename)
    srs = osr.SpatialReference()
    srs.ImportFromEPSG(32631)
    lyr = ds.CreateLayer("test", srs=srs, geom_type=ogr.wkbUnknown)
    for wkt in wkts:
        f = ogr.Feature(lyr.GetLayerDefn())
        f.SetGeometry(ogr.CreateGeometryFromWkt(wkt))
        lyr.CreateFeature(f)
    ds = None

    ds = ogr.Open(filename)
    lyr = ds.GetLayer(0)
    assert lyr.GetGeomType() == expect_geom_type
    for wkt in wkts:
        f = lyr.GetNextFeature()
        assert f.GetGeometryRef().ExportToIsoWkt() == wkt
    ds = None


###############################################################################
# Test time handling


@pytest.mark.parametrize(
    "input_field_defns,input_field_values_array,expected_times,expected_properties",
    [
        [
            [ogr.FieldDefn("time", ogr.OFTDate)],
            [{"time": "2023-06-06"}, {}],
            [{"date": "2023-06-06"}, None],
            [{}, {}],
        ],
        [
            [ogr.FieldDefn("time", ogr.OFTDateTime)],
            [
                {"time": "2023-06-06T12:34:56Z"},
                {"time": "2023-06-06T12:34:56.789Z"},
                {"time": "2023-06-06T12:34:56+0200"},
                {},
            ],
            [
                {"timestamp": "2023-06-06T12:34:56Z"},
                {"timestamp": "2023-06-06T12:34:56.789Z"},
                {"timestamp": "2023-06-06T10:34:56Z"},
                None,
            ],
            [{}, {}, {}, {}],
        ],
        [
            [ogr.FieldDefn("jsonfg_time", ogr.OFTDate)],
            [{"jsonfg_time": "2023-06-06"}],
            [{"date": "2023-06-06"}],
            [{}],
        ],
        [
            [
                ogr.FieldDefn("time", ogr.OFTString),
                ogr.FieldDefn("jsonfg_time", ogr.OFTDate),
            ],
            [{"time": "my_time", "jsonfg_time": "2023-06-06"}],
            [{"date": "2023-06-06"}],
            [{"time": "my_time"}],
        ],
        [
            [
                ogr.FieldDefn("time_start", ogr.OFTDate),
                ogr.FieldDefn("time_end", ogr.OFTDate),
            ],
            [
                {"time_start": "2023-06-06", "time_end": "2023-06-07"},
                {"time_start": "2023-06-06"},
                {"time_end": "2023-06-07"},
                {},
            ],
            [
                {"interval": ["2023-06-06", "2023-06-07"]},
                {"interval": ["2023-06-06", ".."]},
                {"interval": ["..", "2023-06-07"]},
                None,
            ],
            [{}, {}, {}, {}],
        ],
        [
            [
                ogr.FieldDefn("time_start", ogr.OFTDateTime),
                ogr.FieldDefn("time_end", ogr.OFTDateTime),
            ],
            [
                {
                    "time_start": "2023-06-06T12:34:56Z",
                    "time_end": "2023-06-07T12:34:56Z",
                }
            ],
            [{"interval": ["2023-06-06T12:34:56Z", "2023-06-07T12:34:56Z"]}],
            [{}],
        ],
        [
            [
                ogr.FieldDefn("jsonfg_time_start", ogr.OFTDate),
                ogr.FieldDefn("jsonfg_time_end", ogr.OFTDate),
            ],
            [{"jsonfg_time_start": "2023-06-06", "jsonfg_time_end": "2023-06-07"}],
            [{"interval": ["2023-06-06", "2023-06-07"]}],
            [{}],
        ],
        [
            [ogr.FieldDefn("time_start", ogr.OFTDate)],
            [{"time_start": "2023-06-06"}],
            [{"interval": ["2023-06-06", ".."]}],
            [{}],
        ],
        [
            [ogr.FieldDefn("time_end", ogr.OFTDate)],
            [{"time_end": "2023-06-06"}],
            [{"interval": ["..", "2023-06-06"]}],
            [{}],
        ],
    ],
)
def test_jsonfg_write_time(
    input_field_defns, input_field_values_array, expected_times, expected_properties
):

    filename = "/vsimem/test_jsonfg_write_time.json"
    try:
        ds = ogr.GetDriverByName("JSONFG").CreateDataSource(filename)
        lyr = ds.CreateLayer("test", geom_type=ogr.wkbNone)
        for input_field_defn in input_field_defns:
            lyr.CreateField(input_field_defn)
        for input_field_values in input_field_values_array:
            f = ogr.Feature(lyr.GetLayerDefn())
            for key in input_field_values:
                f.SetField(key, input_field_values[key])
            lyr.CreateFeature(f)
        ds = None

        f = gdal.VSIFOpenL(filename, "rb")
        if f:
            data = gdal.VSIFReadL(1, 10000, f)
            gdal.VSIFCloseL(f)

        j = json.loads(data)
        features = j["features"]
        for feat_idx in range(len(features)):
            feat = features[feat_idx]
            assert feat["time"] == expected_times[feat_idx]
            assert feat["properties"] == expected_properties[feat_idx]

    finally:
        if gdal.VSIStatL(filename):
            gdal.Unlink(filename)


###############################################################################
# Test gdal.VectorTranslate()


def test_jsonfg_vector_translate():

    filename = "tmp/out.json"
    try:
        ds = gdal.VectorTranslate(filename, "data/poly.shp", format="JSONFG")
        assert ds
        ds = None

        import test_cli_utilities

        if test_cli_utilities.get_test_ogrsf_path() is not None:
            ret = gdaltest.runexternal(
                test_cli_utilities.get_test_ogrsf_path() + " -ro " + filename
            )

            assert "INFO" in ret
            assert "ERROR" not in ret

    finally:
        if gdal.VSIStatL(filename):
            gdal.Unlink(filename)


###############################################################################
# Test WRITE_GEOMETRY=NO layer creation option


def test_jsonfg_write_WRITE_GEOMETRY_NO():

    filename = "/vsimem/test_jsonfg_write_WRITE_GEOMETRY_NO.json"
    try:
        ds = ogr.GetDriverByName("JSONFG").CreateDataSource(filename)
        lyr = ds.CreateLayer(
            "test", srs=_get_epsg_crs(32631), options=["WRITE_GEOMETRY=NO"]
        )
        f = ogr.Feature(lyr.GetLayerDefn())
        f.SetGeometry(ogr.CreateGeometryFromWkt("POINT (500000 4500000)"))
        lyr.CreateFeature(f)
        ds = None

        f = gdal.VSIFOpenL(filename, "rb")
        if f:
            data = gdal.VSIFReadL(1, 10000, f)
            gdal.VSIFCloseL(f)

        j = json.loads(data)
        feature = j["features"][0]
        assert feature["geometry"] is None
        assert feature["place"] == {
            "coordinates": [500000.0, 4500000.0],
            "type": "Point",
        }

    finally:
        if gdal.VSIStatL(filename):
            gdal.Unlink(filename)


###############################################################################
# Test COORDINATE_PRECISION_* layer creation option


def test_jsonfg_write_COORDINATE_PRECISION():

    filename = "/vsimem/test_jsonfg_write_COORDINATE_PRECISION.json"
    try:
        ds = ogr.GetDriverByName("JSONFG").CreateDataSource(
            filename, options=["SINGLE_LAYER=YES"]
        )
        lyr = ds.CreateLayer(
            "test",
            srs=_get_epsg_crs(32631),
            options=["COORDINATE_PRECISION_GEOMETRY=3", "COORDINATE_PRECISION_PLACE=2"],
        )
        f = ogr.Feature(lyr.GetLayerDefn())
        f.SetGeometry(ogr.CreateGeometryFromWkt("POINT (500000.12345 4500000.12345)"))
        lyr.CreateFeature(f)
        ds = None

        f = gdal.VSIFOpenL(filename, "rb")
        if f:
            data = gdal.VSIFReadL(1, 10000, f)
            gdal.VSIFCloseL(f)

        j = json.loads(data)
        assert j["xy_coordinate_resolution"] == 1e-3
        assert j["xy_coordinate_resolution_place"] == 1e-2
        feature = j["features"][0]
        assert feature["geometry"]["coordinates"] == pytest.approx(
            [3.0, 40.651], abs=1e-3
        )
        assert feature["place"]["coordinates"] == pytest.approx(
            [500000.12, 4500000.12], abs=1e-2
        )

    finally:
        if gdal.VSIStatL(filename):
            gdal.Unlink(filename)


###############################################################################
# Test FlushCache()


def test_jsonfg_write_flushcache():

    filename = "/vsimem/test_jsonfg_write_flushcache.json"
    try:
        ds = gdal.GetDriverByName("JSONFG").Create(filename, 0, 0, 0, gdal.GDT_Unknown)
        lyr1 = ds.CreateLayer("test1", srs=_get_epsg_crs(32631))
        lyr2 = ds.CreateLayer("test2", srs=_get_epsg_crs(32631))
        f = ogr.Feature(lyr1.GetLayerDefn())
        f.SetGeometry(ogr.CreateGeometryFromWkt("POINT (1 2)"))
        lyr1.CreateFeature(f)
        f = ogr.Feature(lyr2.GetLayerDefn())
        f.SetGeometry(ogr.CreateGeometryFromWkt("POINT (3 4)"))
        lyr2.CreateFeature(f)
        ds.FlushCache()

        ds2 = ogr.Open(filename)
        assert ds2.GetLayer(0).GetFeatureCount() == 1
        assert ds2.GetLayer(1).GetFeatureCount() == 1
        ds2 = None

        f = ogr.Feature(lyr1.GetLayerDefn())
        f.SetGeometry(ogr.CreateGeometryFromWkt("POINT (3 4)"))
        lyr1.CreateFeature(f)
        ds = None

        ds2 = ogr.Open(filename)
        assert ds2.GetLayer(0).GetFeatureCount() == 2
        assert ds2.GetLayer(1).GetFeatureCount() == 1
        ds2 = None

    finally:
        if gdal.VSIStatL(filename):
            gdal.Unlink(filename)


###############################################################################
# Test geometry coordinate precision support


@pytest.mark.parametrize("single_layer", [True, False])
def test_ogr_jsonfg_geom_coord_precision(tmp_vsimem, single_layer):

    filename = str(tmp_vsimem / "test.json")
    ds = gdal.GetDriverByName("JSONFG").Create(
        filename,
        0,
        0,
        0,
        gdal.GDT_Unknown,
        options=["SINGLE_LAYER=" + ("YES" if single_layer else "NO")],
    )
    geom_fld = ogr.GeomFieldDefn("geometry", ogr.wkbUnknown)
    prec = ogr.CreateGeomCoordinatePrecision()
    prec.Set(1e-2, 1e-3, 0)
    geom_fld.SetCoordinatePrecision(prec)
    srs = osr.SpatialReference()
    srs.SetFromUserInput("EPSG:32631+3855")
    geom_fld.SetSpatialRef(srs)
    lyr = ds.CreateLayerFromGeomFieldDefn("test", geom_fld)
    geom_fld = lyr.GetLayerDefn().GetGeomFieldDefn(0)
    prec = geom_fld.GetCoordinatePrecision()
    assert prec.GetXYResolution() == 1e-2
    assert prec.GetZResolution() == 1e-3
    f = ogr.Feature(lyr.GetLayerDefn())
    f.SetGeometry(
        ogr.CreateGeometryFromWkt("POINT(4500000.23456789 5000000.34567891 9.87654321)")
    )
    lyr.CreateFeature(f)
    ds.Close()

    f = gdal.VSIFOpenL(filename, "rb")
    if f:
        data = gdal.VSIFReadL(1, 10000, f)
        gdal.VSIFCloseL(f)

    assert b"[ 46.44289405, 36.08688377, 9.877 ]" in data
    assert b"[ 4500000.23, 5000000.35, 9.877 ]" in data

    j = json.loads(data)
    assert j["xy_coordinate_resolution"] == pytest.approx(8.98315e-08)
    assert j["z_coordinate_resolution"] == 1e-3
    assert j["xy_coordinate_resolution_place"] == 1e-2
    assert j["z_coordinate_resolution_place"] == 1e-3

    ds = ogr.Open(filename)
    lyr = ds.GetLayer(0)
    geom_fld = lyr.GetLayerDefn().GetGeomFieldDefn(0)
    prec = geom_fld.GetCoordinatePrecision()
    assert prec.GetXYResolution() == 1e-2
    assert prec.GetZResolution() == 1e-3


###############################################################################
# Test force opening a GeoJSON file with JSONFG


def test_ogr_jsonfg_force_opening():

    if ogr.GetDriverByName("GeoJSON"):
        ds = gdal.OpenEx("data/geojson/featuretype.json")
        assert ds.GetDriver().GetDescription() == "GeoJSON"

    ds = gdal.OpenEx("data/geojson/featuretype.json", allowed_drivers=["JSONFG"])
    assert ds.GetDriver().GetDescription() == "JSONFG"


###############################################################################
# Test force opening a URL as JSONFG


def test_ogr_jsonfg_force_opening_url():

    drv = gdal.IdentifyDriverEx("http://example.com", allowed_drivers=["JSONFG"])
    assert drv.GetDescription() == "JSONFG"


###############################################################################


@pytest.mark.parametrize(
    "filename,expected_wkt",
    [
        ["CircularString", "CIRCULARSTRING (2.5 49.5,3.5 50.5,4.5 49.5)"],
        [
            "CircularStringZ",
            "CIRCULARSTRING Z (2.5 49.5 10.5,3.5 50.5 11.5,4.5 49.5 12.5)",
        ],
        [
            "CircularStringM",
            "CIRCULARSTRING M (2.5 49.5 100.5,3.5 50.5 101.5,4.5 49.5 102.5)",
        ],
        [
            "CircularStringZM",
            "CIRCULARSTRING ZM (2.5 49.5 10.5 100.5,3.5 50.5 11.5 101.5,4.5 49.5 12.5 102.5)",
        ],
        [
            "CompoundCurve",
            "COMPOUNDCURVE (CIRCULARSTRING (2.5 49.5,3.5 50.5,4.5 49.5),(4.5 49.5,5.5 50.5))",
        ],
        [
            "CompoundCurveZ",
            "COMPOUNDCURVE Z (CIRCULARSTRING Z (2.5 49.5 10.5,3.5 50.5 11.5,4.5 49.5 12.5),(4.5 49.5 12.5,5.5 50.5 13.5))",
        ],
        [
            "CompoundCurveM",
            "COMPOUNDCURVE M (CIRCULARSTRING M (2.5 49.5 100.5,3.5 50.5 101.5,4.5 49.5 102.5),(4.5 49.5 102.5,5.5 50.5 103.5))",
        ],
        [
            "CompoundCurveZM",
            "COMPOUNDCURVE ZM (CIRCULARSTRING ZM (2.5 49.5 10.5 100.5,3.5 50.5 11.5 101.5,4.5 49.5 12.5 102.5),(4.5 49.5 12.5 102.5,5.5 50.5 13.5 103.5))",
        ],
        [
            "CurvePolygon",
            "CURVEPOLYGON ((10.5 10.5,10.5 20.5,20.5 20.5,20.5 10.5,10.5 10.5),CIRCULARSTRING (11.5 15.5,15.5 19.5,19.5 15.5,15.5 11.5,11.5 15.5),COMPOUNDCURVE ((13.5 13.5,13.5 17.5,17.5 17.5),(17.5 17.5,17.5 13.5,13.5 13.5)))",
        ],
        [
            "CurvePolygonZ",
            "CURVEPOLYGON Z ((10.5 10.5 -10.5,10.5 20.5 -11.5,20.5 20.5 -12.5,20.5 10.5 -13.5,10.5 10.5 -10.5),CIRCULARSTRING Z (11.5 15.5 -10.5,15.5 19.5 -11.5,19.5 15.5 -12.5,15.5 11.5 -13.5,11.5 15.5 -10.5),COMPOUNDCURVE Z ((13.5 13.5 -10.5,13.5 17.5 -11.5,17.5 17.5 -12.5),(17.5 17.5 -12.5,17.5 13.5 -13.5,13.5 13.5 -10.5)))",
        ],
        [
            "CurvePolygonM",
            "CURVEPOLYGON M ((10.5 10.5 100.5,10.5 20.5 101.5,20.5 20.5 102.5,20.5 10.5 103.5,10.5 10.5 100.5),CIRCULARSTRING M (11.5 15.5 100.5,15.5 19.5 101.5,19.5 15.5 102.5,15.5 11.5 103.5,11.5 15.5 100.5),COMPOUNDCURVE M ((13.5 13.5 100.5,13.5 17.5 101.5,17.5 17.5 102.5),(17.5 17.5 102.5,17.5 13.5 103.5,13.5 13.5 100.5)))",
        ],
        [
            "CurvePolygonZM",
            "CURVEPOLYGON ZM ((10.5 10.5 -10.5 100.5,10.5 20.5 -11.5 101.5,20.5 20.5 -12.5 102.5,20.5 10.5 -13.5 103.5,10.5 10.5 -10.5 100.5),CIRCULARSTRING ZM (11.5 15.5 -10.5 100.5,15.5 19.5 -11.5 101.5,19.5 15.5 -12.5 102.5,15.5 11.5 -13.5 103.5,11.5 15.5 -10.5 100.5),COMPOUNDCURVE ZM ((13.5 13.5 -10.5 100.5,13.5 17.5 -11.5 101.5,17.5 17.5 -12.5 102.5),(17.5 17.5 -12.5 102.5,17.5 13.5 -13.5 103.5,13.5 13.5 -10.5 100.5)))",
        ],
        [
            "MultiCurve",
            "MULTICURVE (CIRCULARSTRING (2.5 49.5,3.5 50.5,4.5 49.5),(4.5 49.5,5.5 50.5),COMPOUNDCURVE ((2.5 49.5,3.5 50.5),(3.5 50.5,4.5 49.5)))",
        ],
        [
            "MultiCurveZ",
            "MULTICURVE Z (CIRCULARSTRING Z (2.5 49.5 10.5,3.5 50.5 11.5,4.5 49.5 12.5),(4.5 49.5 13.5,5.5 50.5 14.5),COMPOUNDCURVE Z ((2.5 49.5 15.5,3.5 50.5 16.5),(3.5 50.5 16.5,4.5 49.5 17.5)))",
        ],
        [
            "MultiCurveM",
            "MULTICURVE M (CIRCULARSTRING M (2.5 49.5 100.5,3.5 50.5 101.5,4.5 49.5 102.5),(4.5 49.5 103.5,5.5 50.5 104.5),COMPOUNDCURVE M ((2.5 49.5 105.5,3.5 50.5 106.5),(3.5 50.5 106.5,4.5 49.5 107.5)))",
        ],
        [
            "MultiCurveZM",
            "MULTICURVE ZM (CIRCULARSTRING ZM (2.5 49.5 10.5 100.5,3.5 50.5 11.5 101.5,4.5 49.5 12.5 102.5),(4.5 49.5 13.5 103.5,5.5 50.5 14.5 104.5),COMPOUNDCURVE ZM ((2.5 49.5 15.5 105.5,3.5 50.5 16.5 106.5),(3.5 50.5 16.5 106.5,4.5 49.5 17.5 107.5)))",
        ],
        [
            "MultiSurface",
            "MULTISURFACE (CURVEPOLYGON (CIRCULARSTRING (10.5 10.5,10.5 20.5,20.5 20.5,20.5 10.5,10.5 10.5)),((100 100,100 200,200 200,100 100)))",
        ],
        [
            "MultiSurfaceZ",
            "MULTISURFACE Z (CURVEPOLYGON Z (CIRCULARSTRING Z (10.5 10.5 11.5,10.5 20.5 12.5,20.5 20.5 13.5,20.5 10.5 14.5,10.5 10.5 11.5)),((100 100 10.5,100 200 11.5,200 200 12.5,100 100 10.5)))",
        ],
        [
            "MultiSurfaceM",
            "MULTISURFACE M (CURVEPOLYGON M (CIRCULARSTRING M (10.5 10.5 100.5,10.5 20.5 101.5,20.5 20.5 102.5,20.5 10.5 103.5,10.5 10.5 100.5)),((100 100 100.5,100 200 101.5,200 200 102.5,100 100 100.5)))",
        ],
        [
            "MultiSurfaceZM",
            "MULTISURFACE ZM (CURVEPOLYGON ZM (CIRCULARSTRING ZM (10.5 10.5 11.5 100.5,10.5 20.5 12.5 101.5,20.5 20.5 13.5 102.5,20.5 10.5 14.5 103.5,10.5 10.5 11.5 100.5)),((100 100 10.5 -100.5,100 200 11.5 -101.5,200 200 12.5 -102.5,100 100 10.5 -100.5)))",
        ],
        [
            None,
            "POINT (1.5 2.5)",
        ],
        [
            None,
            "POINT Z (1.5 2.5 3.5)",
        ],
        [
            None,
            "POINT M (1.5 2.5 4.5)",
        ],
        [
            None,
            "POINT ZM (1.5 2.5 3.5 4.5)",
        ],
        [
            None,
            "POLYHEDRALSURFACE Z (((0 0 10,0 1 10,1 1 10,0 0 10)))",
        ],
    ],
)
def test_jsonfg_read_write_geoms(tmp_vsimem, filename, expected_wkt):

    expected_geom = ogr.CreateGeometryFromWkt(expected_wkt)

    if filename:
        with ogr.Open(f"data/jsonfg/{filename}.json") as ds:
            lyr = ds.GetLayer(0)
            f = lyr.GetNextFeature()
            assert f.GetGeometryRef().ExportToIsoWkt() == expected_wkt
            assert lyr.GetGeomType() == expected_geom.GetGeometryType()

    out_filename = tmp_vsimem / "out.json"
    with gdal.GetDriverByName("JSONFG").CreateVector(out_filename) as ds:
        srs = osr.SpatialReference(epsg=(4979 if "Z" in expected_wkt else 4326))
        srs.SetAxisMappingStrategy(osr.OAMS_AUTHORITY_COMPLIANT)
        lyr = ds.CreateLayer("test", srs=srs)
        f = ogr.Feature(lyr.GetLayerDefn())
        f.SetGeometry(expected_geom)
        lyr.CreateFeature(f)

    with gdal.VSIFile(out_filename, "rb") as f:
        data = f.read()
        if expected_wkt.startswith("POINT") or expected_wkt.startswith(
            "POLYHEDRALSURFACE"
        ):
            assert b"/conf/circular-arcs" not in data
        else:
            assert b"/conf/circular-arcs" in data
        if " M" in expected_wkt or " ZM" in expected_wkt:
            assert b"/conf/measures" in data
        else:
            assert b"/conf/measures" not in data
        if expected_wkt.startswith("POLYHEDRALSURFACE"):
            assert b"/conf/polyhedra" in data
        else:
            assert b"/conf/polyhedra" not in data

    with ogr.Open(out_filename) as ds:
        lyr = ds.GetLayer(0)
        f = lyr.GetNextFeature()
        assert f.GetGeometryRef().ExportToIsoWkt() == expected_wkt
        assert lyr.GetGeomType() == expected_geom.GetGeometryType()


@pytest.mark.parametrize(
    "filename",
    [
        "CompoundCurveBadChild",
        "CurvePolygonBadChild",
        "MultiCurveBadChild",
        "MultiSurfaceBadChild",
    ],
)
def test_jsonfg_read_bad_geoms(filename):

    with gdaltest.error_raised(gdal.CE_Warning):
        ds = ogr.Open(f"data/jsonfg/{filename}.json")
        lyr = ds.GetLayer(0)
        f = lyr.GetNextFeature()
        assert f.GetGeometryRef() is None


def test_jsonfg_write_to_stdout():

    import gdaltest
    import test_cli_utilities

    ogr2ogr_path = test_cli_utilities.get_ogr2ogr_path()
    if ogr2ogr_path is None:
        pytest.skip("gdal binary missing")

    out = gdaltest.runexternal(
        f"{ogr2ogr_path} -f JSONFG /vsistdout/ data/jsonfg/CurvePolygonZM.json"
    )

    assert "/conf/circular-arcs" in out
    assert "/conf/measures" in out

    with ogr.Open(out) as ds:
        lyr = ds.GetLayer(0)
        f = lyr.GetNextFeature()
        assert (
            f.GetGeometryRef().ExportToIsoWkt()
            == "CURVEPOLYGON ZM ((10.5 10.5 -10.5 100.5,10.5 20.5 -11.5 101.5,20.5 20.5 -12.5 102.5,20.5 10.5 -13.5 103.5,10.5 10.5 -10.5 100.5),CIRCULARSTRING ZM (11.5 15.5 -10.5 100.5,15.5 19.5 -11.5 101.5,19.5 15.5 -12.5 102.5,15.5 11.5 -13.5 103.5,11.5 15.5 -10.5 100.5),COMPOUNDCURVE ZM ((13.5 13.5 -10.5 100.5,13.5 17.5 -11.5 101.5,17.5 17.5 -12.5 102.5),(17.5 17.5 -12.5 102.5,17.5 13.5 -13.5 103.5,13.5 13.5 -10.5 100.5)))"
        )


def test_jsonfg_write_circular_string_longer_than_11_points(tmp_vsimem):

    out_filename = tmp_vsimem / "out.json"
    with gdal.GetDriverByName("JSONFG").CreateVector(out_filename) as ds:
        srs = osr.SpatialReference(epsg=4326)
        srs.SetAxisMappingStrategy(osr.OAMS_AUTHORITY_COMPLIANT)
        lyr = ds.CreateLayer("test", srs=srs)
        f = ogr.Feature(lyr.GetLayerDefn())
        g = ogr.CreateGeometryFromWkt(
            "CIRCULARSTRING(0 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,8 0,9 0,10 0,11 0,12 0)"
        )
        f.SetGeometry(g)
        lyr.CreateFeature(f)

    with ogr.Open(out_filename) as ds:
        lyr = ds.GetLayer(0)
        f = lyr.GetNextFeature()
        assert (
            f.GetGeometryRef().ExportToIsoWkt()
            == "COMPOUNDCURVE (CIRCULARSTRING (0 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,8 0,9 0,10 0),CIRCULARSTRING (10 0,11 0,12 0))"
        )


@pytest.mark.parametrize("single_layer", ["YES", "NO"])
def test_jsonfg_write_read_measure_unit_description(tmp_vsimem, single_layer):

    out_filename = tmp_vsimem / "out.json"
    with gdal.GetDriverByName("JSONFG").CreateVector(
        out_filename, options=["SINGLE_LAYER=" + single_layer]
    ) as ds:
        srs = osr.SpatialReference(epsg=32631)
        lyr = ds.CreateLayer(
            "test",
            srs=srs,
            options=["MEASURE_UNIT=my_unit", "MEASURE_DESCRIPTION=my_description"],
        )
        f = ogr.Feature(lyr.GetLayerDefn())
        g = ogr.CreateGeometryFromWkt("POINT M (1 2 3)")
        f.SetGeometry(g)
        lyr.CreateFeature(f)

    with gdal.VSIFile(out_filename, "rb") as f:
        j = json.loads(f.read())
        if single_layer == "YES":
            assert "measures" in j
            assert j["measures"] == {
                "enabled": True,
                "unit": "my_unit",
                "description": "my_description",
            }
        else:
            assert "measures" in j["features"][0]
            assert j["features"][0]["measures"] == {
                "enabled": True,
                "unit": "my_unit",
                "description": "my_description",
            }

    with ogr.Open(out_filename) as ds:
        lyr = ds.GetLayer(0)
        assert lyr.GetMetadata_Dict("MEASURES") == {
            "UNIT": "my_unit",
            "DESCRIPTION": "my_description",
        }
        f = lyr.GetNextFeature()
        assert f.GetGeometryRef().ExportToIsoWkt() == "POINT M (1 2 3)"

    out2_filename = tmp_vsimem / "out2.json"
    gdal.VectorTranslate(out2_filename, out_filename, format="JSONFG")

    with ogr.Open(out2_filename) as ds:
        lyr = ds.GetLayer(0)
        assert lyr.GetMetadata_Dict("MEASURES") == {
            "UNIT": "my_unit",
            "DESCRIPTION": "my_description",
        }
        f = lyr.GetNextFeature()
        assert f.GetGeometryRef().ExportToIsoWkt() == "POINT M (1 2 3)"


###############################################################################
# Test reading OGC:CRS84


def test_jsonfg_read_ogc_crs84():

    j = {
        "type": "FeatureCollection",
        "conformsTo": ["[ogc-json-fg-1-0.3:core]"],
        "coordRefSys": "http://www.opengis.net/def/crs/OGC/1.3/CRS84",
        "features": [
            {
                "type": "Feature",
                "properties": {},
                "geometry": None,
                "place": {"type": "Point", "coordinates": [2, 49]},
            }
        ],
    }

    ds = gdal.OpenEx(json.dumps(j))
    assert ds.GetDriver().GetDescription() == "JSONFG"
    lyr = ds.GetLayer(0)
    assert lyr.GetSpatialRef().GetAuthorityCode(None) == "4326"
    assert lyr.GetSpatialRef().GetDataAxisToSRSAxisMapping() == [2, 1]
    f = lyr.GetNextFeature()
    assert f.GetGeometryRef().ExportToIsoWkt() == "POINT (2 49)"
